Constant‐dose microwave irradiation of insect pupae

Pupae of the yellow mealworm Tenebrio molitor L. were subjected to microwave irradiation for 1.5–24 hours at power density levels adjusted to produce a total dosage of approximately 1123 J/g in each insect for every experiment. Insects without visible blemishes were exposed in a standing wave irradiation system such that half of them were exposed in the plane of maximum electric field ( E field) and the other half were exposed in the plane of maximum magnetic field ( H field). Both E field and H field insects exhibited nearly the same specific absorption rate (SAR) for pupal orientation parallel to the magnetic field vector at 5.95 GHz. Irradiations were conducted both with and without the use of a ventilating fan to control the temperature rise in the irradiation chamber. Abnormal development as a result of the microwave exposure was seen only in the high‐power, short‐duration experiment without chamber ventilation. This result suggests a thermal interaction mechanism for explanation of observed microwave‐induced abnormalities. A study of the time course of the average temperature rise in the irradiated insects indicates that teratological effects for this configuration have a temperature threshold of approximately 40°C.